Extensible visor for motor vehicles



Jan 26, 1954` R. J. MocAR-rHY Erm. 2,667,222

EXTENSIBLE VISOR FOR MOTQR VEHICLES Filed oct. 9, 1952 5 /E GER T INVENToRS :Viiv .Mrtvvhww @#571, .5. 5.21.1.,

Arrow/Erg Patented Jan. 26, 1954 UNITED?. OFFICE 2,"667g222 -1 v EXTENSIBLE VISgORFOR VIHICLESL Russell J.- McCarthy, Detroit; and Milton- Ef Siegert,V Plymouth;."Mch;, assignors to Ford MotoriCompany,Deai:boml,. Mich., a corpora-i.

tionof Delaware Application October 9, 1952,Serial,No. 313,928'Y 4 Claims.l` (Cl. 160-211) This invention relates* generally to motor ve-` hicle Visors and more particularly' to an` insideadjustable sun Visorv for a motory Vehicle.

An object of the present inventionis to pro- Vide an extensible interior sun visor for amotor- Vehicle in which the Visor is provided `with-a slideable extension whichmay be operated toA Motor front seat. The present invention provides,-for` each Visor, a readily operated extension which can be housed within the body-of the visor when not in use yet which when extended elongates the visor and covers the otherwise unshielded. portion of the windshield adjacent the rear -Viewy mirror. The extensionsv on thevtwo Visors: can be arranged to overlap the rear View mirror-and to slide into the space between the mirrorr and;- the windshield. Consequently,. shielding is obtained without interfering with, the functioning of the mirror.

A furthei` object of the presentiinvention'vis. to provide an extensible sun Visor of the type;

mentioned above whichis simpleiin construction and economical to manufactureiand whichA doesf not detract from the appearance or stylingiofi the visor.

Other objects and advantagesofthis invention will be made more apparent as this descriptioni proceeds, particularly when consideredtiniconf: nection with the accompanying drawings,` where--v 1n:

Figure 1 is an elevationalview. looking toward the windshield of a motor Vehicle fromythe irl--r terior thereof, and illustrating a` pair yofwsun Visors incorporating the presentlinvention'.

Figure 2 is an enlargedelevational viewpart1vA broken away, of one of the sun-.Visors showncin. Figure l.

Figure 3 is an elevationalview similar'to Fig,- ure 2 but showing the visor extension inzitsexf. tended position.

Figures 4 and 5.are enlarged vertical crosssectional Views taken substantially'on the planes indicated by the lines 4 4 and 5^-5',oiligureV 2.'

Figuresr 6 and 7 are enlarged horizontal crossthe requiredl` 2.` sectional viewstaken substantially on-the planes-- by-the lines 6*@ and-"rof Figures 3and 24` respectively.

Referring now to the drawings, and particularly to Figure l; thereference'character` H1 indicates the windshield of a niotorrvehicle as viewed` `from the interior of' the vehicle body.'4 The windshield is ofrthe one-pieoe--curved'- type;A anda rear View mirror i2-is conventionally mounted centrally ofthe windshield near-the upper'portionV thereof;A being supported bymeans-V- of a bracket secured to themoulding above-theJ windshield. A pairofgsun- Visors I3* and -I4-are shown; and these Visors are conventionally@ronv 1 tatably mounted upon supporting rodsiithe upwardly bentV endsJ Ilhof which vare pivotally mounted in brackets |31-secured. to the Vehicle-J roof; The Visors are shown-inv tlieir-loweredepositions` adjacent the windshield, vhut-"mayYV be swung upwardly 'about the horizontalportionsfofithe rods Y i toinoperative positions adjacent the-` roof panelyandmayalso be swung 4about theeend:

portions Il ofthe rodsy to'lpositionsadjacent the side Windowsof the Vehicle. It willi-benoted.; that the inner ends lofthe- Visors iSFrandf-iii arevl necessarilyL spacedl a-considera-ble distance' from each other so asto provide clearancev foin the rear View mirror l2.- tofbe; substantiallyv closed by means of r sliding extensionsY 21'- carr-iedffby the-Visors andfeach.L adapted to be pulled Aout from-the interior-of its; ViSOr'bOdy-to increasethe overall length therea of: With theyisors i 31-and i livin theirpositions.: adj acent --the `windshieldthel extensions. 2l. can.v ber slidiintothe space betweenthe rear. View mire. ror I2V andthe-windshield so-as 13o-shield the4 latterwithout-interferingV with the function of;v the rear'view mirror-.-

Reference isA now madeizo-FigureseZ tof? in clusiVeA fora-more detailed description. of the.: construction ofVV the Visors.. Inasrnuch as..the-A visorsifand-lli areidentical except :for/being` reversed;onlyuthe-leftl-handvvisor iiwill'be de. scribed.

The; horizontal? varm of` the supporting rod .i S extends approximately halfwtlie widthf offthe;v visorV and is frictionally received. within; the:l cylindrical upperl portieri` 22 or. ametal:rv hinge; member 23.4` The'frictional engagement betwee t the-rod IE5A and the cylindrical portiondE-vof` the; hinge member` permits the visor to .beiswung;- about-the-axis of the .rod it vyet enablesztheyisor; to beretainedl-in any .adjustedposition.H

Asl best seenl Figures -2V and: 4,; theffhinge memberZiisrformedewithi afnatuange 323;; the;

This space-isadaptedl- `tab or flange 315 adapted to form a latter being secured by means of wire staples 23 to the upper portion of the visor frame 21. The frame 21 may be formed of breboard or a pressed wood board and extends from the left hand end of the visor to approximately the center thereof. A sheet metal extension guide 28 forms a continuation of the visor frame 21 and extends from the center of the visor to substantially the right hand end thereof. The upper portion of the extension guide 23 is spot welded to the flange 2i of the hinge member 23.

The left hand end of the extension guide 28 is formed with an offset flange 29 overlapping the adjacent edge of the visor frame 21, and secured thereto by wire staples 3|. The lower edge of the body portion of the extension guide 28 is formed with a return bent flange 32 extending parallel to and spaced from the body portion of the extension guide 28.

Adjacent the upper portion of the metal extension guide 28 the shape of the hinge member 23 is changed somewhat from the shape of the cylindrical portion 22 adjacent the visor frame 21. This construction is best seen in Figure 5, and it will be noted that the marginal edge 33 of the cylindrical portion 22 of the hinge member 2 is spaced from the flange 23 of the hinge member to form a guideway therebetween. The width of this guideway is substantially the width of the guideway formed at the lower portion of the extension guide 28 between the body portion thereof and the return bent flange 32.

From the foregoing it will be seen that aligned guideways are formed adjacent the upper and lower edges of the visor, with the lower guideway being formed between the body portion of the extension guide 28 and the return bent flange 32 thereof, and with the upper guideway being formed between the upper portion of the extension guide 28 and the marginal edge 33 of the hinge member 23. These aligned guideways are adapted to slideably receive the visor extension 2l. While the extension 2l may be formed of any suitable material,l it has been found that a colored plastic extension is suitable. If desired,

the visor extension can be a tinted translucent plastic to function as a lter, or it can be an opaque solid color plastic.

The visor extension 2l corresponds in shape generally to the shape of the extension guide 28, but is formed at its right hand edge with a rolled hand hold to enable the visor extension to be pulled out of the visor. The visor extension 2l is also formed at its left hand end with an upstanding lug or stop portion 35 which is adapted to cooperate with a stop screw 35. The stop screw 36 is a self tapping headed screw carried by a cylindrical portion 22 of the hinge member 23 in alignment with the flange 35 of the visor extension. The location of the stop screw 36 determines the travel of the visor extension and forms a. positive stop limiting the movement of the visor extension relative to the visor.

Covering the visor is a U-shaped cover 31 which may be formed of cardboard or a fabric covered board to form a protective and decorative support for the visor structure. A binding 38 embraces the left hand and lower edges of the visor cover 31 and is stitched thereto. At the right hand edge of the visor, the two sides 39 and ii of the visor cover are not connected to each other by the binding, but are separated to provide space therebetween for the sliding movement of the visor extension 2l.

Upon reference.

A to Figures 2 and 7, it will be seen that the side 39 of the visor cover which is adjacent the driver when the visor is in position next to the windshield is somewhat shorter than the opposite side di! thereof. A binding 4l embraces the right edge of the short side 39 of the visor cover while a similar binding 42 embraces the right hand edge of the longer side 40 of the cover, each of the bindings being stitched to their respective side of the cover. The binding 52 may be a continuation of the binding 38 along the bottom of the visor.

This arrangement exposes a narrow portion of the visor extension 2l adjacent the marginal flange 34 when the visor is in its operative position adjacent the windshield, thus facilitating the grasping of the flange 36. to pull the visor extension out of the visor. When the visor is swung to its upper position adjacent the roof panel of the vehicle, however, the longer side iii of the visor cover conceals substantially all of the visor extension 2|. Thus, when the visor is not in use, its appearance is substantially the same as that of a conventional nonextensible visor.

It will be understood that the invention is not to be limited to the exact construction shown and described7 but that various changes and modifications may be made without departing from the spirit and scope of the invention, as defined in the appended claims.

What is claimed is:

l. An extensible visor for a motor vehicle adapted to be positioned adjacent the interior side of the vehicle windshield, comprising a hinge member extending substantially the entire length of the visor, a frame secured to said hinge member and extending from one end of the 'visor to an intermediate portion thereof, a sheet metal guide secured to said frame and forming a continuation thereof from the end of sai-:l frame to the opposite end of said visor, said guide having an elongated guideway formed at the lower edge thereof and an aligned guideway adjacent the upper edge thereof between said guide and a portion of said hinge member, and a visor extension slideable in said two guideways from a position adjacent said guide member to a position extending beyond the end of said guide member, and a cover member surrounding said hinge member, frame member, and guide member.

2. The structure defined by claim 1 which is further characterized in that said visor extension is formed with a projecting shoulder adjacent the hinge member, and a stop pin is mounted on the hinge member in alignment with said shoulder to limit movement of said extension relative to said interconnected hinge frame and guide members.

3. The structure defined by claim l which -is further characterized in that said hinge member comprises an elongated at flange connected to the upper edges of said frame and guide members, said hinge member adjacent said frame member having a cylindrical portion for receiving a hinge pin, and said hinge member adjacent the upper edge of said guide member having a return bent marginal flange spaced from the flat flange of said hinge member to form a. guideway therebetween for said visor extension.

4. Thestructure defined by claim 1 which is further characterized in that the cover member is generally U-shaped with the base thereof adjacent said hinge member and withthe opposite side walls thereof embracing the frame and guide members of the visor, a binding embracing the adjacent edges of the side Walls of the cover member along the end and one side of the visor, and separate bindings for each side Wall of the cover member adjacent the other end of the visor to form a, space therebetween for the projection of said visor extension therethrough.

RUSSELL J. MCCARTHY. MILTON E. SIEGERT.

References Cited in the le of this patent UNITED STATES PATENTS Number Name Date Johnson Feb. 1, 1938 Francis June 14, 1938 Pelcher et al Aug. 25, 1942 Ward Sept. 25, 1945 Sohnes May 13, 1952 Jones July 15, 1952 

